tests/ui/traits/new-solver/generalize/generalize-proj-new-universe-index-2.rs - toolchain/rustc - Git at Google

 // compile-flags: -Ztrait-solver=next
 // known-bug: trait-system-refactor-initiative#60

 // Generalizing a projection containing an inference variable
 // which cannot be named by the `root_vid` can result in ambiguity.
 //
 // Because we do not decrement the universe index when exiting a forall,
 // this can cause unexpected failures.
 //
 // See generalize-proj-new-universe-index-1.rs for more details.

 // For this reproduction we need:
 // - an inference variable with a lower universe
 // - enter a binder to increment the current universe
 // - create a new inference variable which is constrained by proving a goal
 // - equate a projection containing the new variable with the first variable
 // - generalization creates yet another inference variable which is then
 //   part of an alias-relate, resulting this to fail with ambiguity.
 //
 // Because we need to enter the binder in-between the creation of the first
 // and second inference variable, this is easiest via
 // `assemble_candidates_after_normalizing_self_ty` because eagerly call
 // `try_evaluate_added_goals` there before creating the inference variables
 // for the impl parameters.
 trait Id {
     type Assoc: ?Sized;
 }
 impl<T: ?Sized> Id for T {
     type Assoc = T;
 }

 // By adding an higher ranked bound to the impl we currently
 // propagate this bound to the caller, forcing us to create a new
 // universe.
 trait IdHigherRankedBound {
     type Assoc: ?Sized;
 }

 impl<T: ?Sized> IdHigherRankedBound for T
 where
     for<'a> T: 'a,
 {
     type Assoc = T;
 }

 trait WithAssoc<T: ?Sized> {
     type Assoc: ?Sized;
 }


 struct Leaf;
 struct Wrapper<U: ?Sized>(U);
 struct Rigid;

 impl<U: ?Sized> WithAssoc<U> for Leaf {
     type Assoc = U;
 }


 impl<Ur: ?Sized> WithAssoc<Wrapper<Ur>> for Rigid
 where
     Leaf: WithAssoc<Ur>,
 {
     type Assoc = <<Leaf as WithAssoc<Ur>>::Assoc as Id>::Assoc;
 }

 fn bound<T: ?Sized, U: ?Sized, V: ?Sized>()
 where
     T: WithAssoc<U, Assoc = V>,
 {
 }

 fn main() {
     bound::<<Rigid as IdHigherRankedBound>::Assoc, <Wrapper<Leaf> as Id>::Assoc, _>()
 }
	// compile-flags: -Ztrait-solver=next
	// known-bug: trait-system-refactor-initiative#60

	// Generalizing a projection containing an inference variable
	// which cannot be named by the `root_vid` can result in ambiguity.
	//
	// Because we do not decrement the universe index when exiting a forall,
	// this can cause unexpected failures.
	//
	// See generalize-proj-new-universe-index-1.rs for more details.

	// For this reproduction we need:
	// - an inference variable with a lower universe
	// - enter a binder to increment the current universe
	// - create a new inference variable which is constrained by proving a goal
	// - equate a projection containing the new variable with the first variable
	// - generalization creates yet another inference variable which is then
	// part of an alias-relate, resulting this to fail with ambiguity.
	//
	// Because we need to enter the binder in-between the creation of the first
	// and second inference variable, this is easiest via
	// `assemble_candidates_after_normalizing_self_ty` because eagerly call
	// `try_evaluate_added_goals` there before creating the inference variables
	// for the impl parameters.
	trait Id {
	type Assoc: ?Sized;
	}
	impl<T: ?Sized> Id for T {
	type Assoc = T;
	}

	// By adding an higher ranked bound to the impl we currently
	// propagate this bound to the caller, forcing us to create a new
	// universe.
	trait IdHigherRankedBound {
	type Assoc: ?Sized;
	}

	impl<T: ?Sized> IdHigherRankedBound for T
	where
	for<'a> T: 'a,
	{
	type Assoc = T;
	}

	trait WithAssoc<T: ?Sized> {
	type Assoc: ?Sized;
	}


	struct Leaf;
	struct Wrapper<U: ?Sized>(U);
	struct Rigid;

	impl<U: ?Sized> WithAssoc<U> for Leaf {
	type Assoc = U;
	}


	impl<Ur: ?Sized> WithAssoc<Wrapper<Ur>> for Rigid
	where
	Leaf: WithAssoc<Ur>,
	{
	type Assoc = <<Leaf as WithAssoc<Ur>>::Assoc as Id>::Assoc;
	}

	fn bound<T: ?Sized, U: ?Sized, V: ?Sized>()
	where
	T: WithAssoc<U, Assoc = V>,
	{
	}

	fn main() {
	bound::<<Rigid as IdHigherRankedBound>::Assoc, <Wrapper<Leaf> as Id>::Assoc, _>()
	}